Semikron SKiiP3614GB17E4-6DUL Data Sheet

SKiiP 3614 GB17E4-6DUL
Absolute Maximum Ratings
Symbol Conditions Values Unit
System
1)
V
CC
V
isol
I
t(RMS)
I
max (peak)
I
FSM
I²t
SKiiP® 4
2-pack-integrated intelligent Power System
Features
• Intelligent Power Module
• Integrated current and temperature measurement
• Integrated DC-link measurement
• Solder free power section
• IGBT4 and CAL4F technology
• Safety isolated switching and sensor signals
• Digital signal transmission
•CAN Interface
• 100% tested IPM
•RoHS compliant
• UL recognition in progress, file no. E242581
Typical Applications*
• Renewable energies
•Traction
•Elevators
• Industrial drives
Remarks
For further information please refer to SKiiP®4 Technical Explanation
Footnote
1)
With assembly of suitable MKP capacitor
per terminal
2)
The specified maximum operation junction temperature T maximum of 1000 cum. operation hours
can be >150°C for a
vjop
f
out
T
stg
IGBT
V
CES
I
C
I
Cnom
2)
T
j
Diode
V
RRM
I
F
I
Fnom
2)
T
j
Driver
V
s
V
iH
dv/dt secondary to primary side 75 kV/µs f
sw
Characteristics
Symbol Conditions min. typ. max. Unit
IGBT
V
CE(sat)
V
CE0
r
CE
+ E
E
on
off
R
th(j-s)
R
th(j-r)
Operating DC link voltage 1300 V DC, t = 1 s, each polarity 5600 V per AC terminal, rms, sinusoidal current 500 A
max. peak current of power section 5400 A Tj= 175 °C, tp= 10 ms, sin 180° T
= 175 °C, tp=10ms, diode
j
fundamental output frequency
(sinusoidal)
16547 A
1369 kA²s
1kHz
storage temperature -40 ... 85 °C
Tj=25°C
Tj= 175 °C
T
=25°C
s
T
=70°C
s
1700 V 5078 A 4085 A 3600 A
junction temperature -40 ... 175 °C
Tj=25°C
Tj= 175 °C
T
=25°C
s
T
=70°C
s
1700 V 3547 A 2807 A 3600 A
junction temperature -40 ... 175 °C
power supply 19.2 ... 28.8 V
input signal voltage (high) Vs + 0.3 V
switching frequency 5 kHz
IC= 3600 A at terminal
at terminal
IC= 3600 A T
= 150 °C
j
=25°C
j
T
=150°C
j
Tj=25°C
=150°C
T
j
T
=25°C
j
T
=150°C
j
V
= 900 V
CC
V
= 1300 V
CC
2.12 2.43 V
2.53 2.79 V
1.10 1.20 V
1.00 1.10 V
0.28 0.34 mΩ
0.42 0.47 mΩ 4288 mJ 6840 mJ
T
per IGBT switch 0.0092 K/W per IGBT switch 0.0035 K/W
S64
© by SEMIKRON Rev. 1.0 – 22.06.2015 1
SKiiP 3614 GB17E4-6DUL
Characteristics
Symbol Conditions min. typ. max. Unit
Diode
V
= V
F
EC
V
F0
r
F
SKiiP® 4
2-pack-integrated intelligent Power System
Features
• Intelligent Power Module
• Integrated current and temperature measurement
• Integrated DC-link measurement
• Solder free power section
• IGBT4 and CAL4F technology
• Safety isolated switching and sensor signals
• Digital signal transmission
•CAN Interface
• 100% tested IPM
•RoHS compliant
• UL recognition in progress, file no. E242581
Typical Applications*
• Renewable energies
•Traction
•Elevators
• Industrial drives
Remarks
For further information please refer to SKiiP®4 Technical Explanation
Footnote
1)
With assembly of suitable MKP capacitor
per terminal
2)
The specified maximum operation junction temperature T maximum of 1000 cum. operation hours
can be >150°C for a
vjop
E
rr
R
th(j-s)
R
th(j-r)
Driver
V
s
I
S0
I
s
V
IT+
V
IT-
R
IN
C
IN
t
pRESET
t
pReset(OCP)
t
TD
t
jitter
t
SIS
t
POR
I
digiout
V
it+ HALT
V
it-HALT
t
d(err)
I
TRIPSC
I
LL
T
trip
T
DriverTrip
V
DCtrip
V
DCtripLL
IF= 3600 A at terminal
at terminal
IF= 3600 A T
= 150 °C
j
=25°C
j
T
=150°C
j
Tj=25°C T
=150°C
j
T
=25°C
j
T
=150°C
j
V
=900V
R
= 1300 V
V
R
2.02 2.34 V
2.27 2.62 V
1.21 1.36 V
0.99 1.12 V
0.23 0.27 mΩ
0.36 0.42 mΩ 618 mJ 996 mJ
T
per diode switch 0.0187 K/W per diode switch 0.011 K/W
supply voltage non stabilized 19.2 24 28.8 V
bias current @Vs= 24V, fsw = 0, IAC = 0 430 mA k1=66mA/kHz, k2= 0.286 mA/A, f
=50Hz, sinusoidal current
out
input threshold voltage (HIGH)
input threshold voltage (LOW)
= 430 + k
0,7*V
s
* fsw+ k2 * I
1
0,3*V
mA
AC
V
s
V input resistance 13 kΩ input capacitance 1 nF error memory reset time 1300 2900 ms Over current reset time, FRT-function
can be activated via CAN interface
µs
top / bottom switch interlock time 3 µs jitter clock time 52 58 ns short pulse suppression time 0.6 µs Power-On-Reset completed 3.5 s digital output sink current
(HALT-signal) input threshold voltage HIGH HALT
(Low -->High)
0,6*V
s
input threshold voltage LOW HALT (High --> Low)
Error delay time (from detection to HALT), (depends on kind of error)
1.8 170 µs
over current trip level 5290 5400 5510 A
n.a. A
16 mA
0.4*V
s
V
V
PEAK
PEAK
over temperature trip level 128 135 142 °C over temperature PCB trip level 113 120 124 °C over voltage trip level, can be
deactivated via CAN interface,
1300 1340 1380 V
n.a. V
S64
2 Rev. 1.0 – 22.06.2015 © by SEMIKRON
SKiiP 3614 GB17E4-6DUL
Characteristics
Symbol Conditions min. typ. max. Unit
System
t
d(on)IO
t
d(off)IO
dV
/dt
CE
on
SKiiP® 4
/dt
dV
CE
off
R
2-pack-integrated intelligent Power System
Features
• Intelligent Power Module
• Integrated current and temperature measurement
• Integrated DC-link measurement
• Solder free power section
• IGBT4 and CAL4F technology
• Safety isolated switching and sensor signals
• Digital signal transmission
•CAN Interface
• 100% tested IPM
•RoHS compliant
• UL recognition in progress, file no. E242581
th(s-a)
R
CC'+EE'
L
CE
C
CHC
C
ps
I
+ I
CES
RD
M
dc
M
ac
w SKiiP System w/o heat sink 4.84 kg w
h
turn on
VCC= 1300 V I
= 3600 A
C
T
=25°C
j
propagation delay time turn off propagation delay
2.8 µs
2.6 µs
time
=0A
I
Tj=25°C V
= 1300 V
CC
C
= 3600 A
I
C
IC= 3600 A
flow rate = 500 m³/h, Ta=25°C, 500m above sea level
10 kV/µs
3kV/µs 4kV/µs
0.017 K/W
terminals to chip, Ts=25°C 0.045 mΩ commutation inductance 3 nH coupling capacitance secondary to
heat sink coupling capacitance primary to
secondary
VGE=0V, VCE= 1700 V, Tj=25°C
8.4 nF
0.102 nF
0.226 mA DC terminals 6 8 Nm AC terminals 13 15 Nm
heat sink 9.9 kg
Typical Applications*
• Renewable energies
•Traction
•Elevators
• Industrial drives
Remarks
For further information please refer to SKiiP®4 Technical Explanation
Footnote
1)
With assembly of suitable MKP capacitor
per terminal
2)
The specified maximum operation junction temperature T maximum of 1000 cum. operation hours
can be >150°C for a
vjop
S64
© by SEMIKRON Rev. 1.0 – 22.06.2015 3
SKiiP 3614 GB17E4-6DUL
4 Rev. 1.0 – 22.06.2015 © by SEMIKRON
SKiiP 3614 GB17E4-6DUL
Fig. 1: Typical IGBT output characteristics Fig. 2: Typical diode output characteristics
Fig. 3: Typical switching energy E = f(Ic) Fig. 4: Typical switching energy E = f(Ic)
Fig. 5: Transient thermal impedance Zth(j-s) Fig. 6: Transient thermal impedance Zth(j-r)
© by SEMIKRON Rev. 1.0 – 22.06.2015 5
SKiiP 3614 GB17E4-6DUL
Fig. 7: Transient thermal impedance Zth(s-a) Fig. 8: Coefficients of thermal impedances
Fig. 9: Thermal resistance Rth(s-a) versus flow rate V Fig. 10: Pressure drop Δp versus flow rate V
6 Rev. 1.0 – 22.06.2015 © by SEMIKRON
SKiiP 3614 GB17E4-6DUL
System
This is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, Chapter IX
* The specifications of our components may not be considered as an assurance of component characteristics. Components have to be tested for the respective application. Adjustments may be necessary. The use of SEMIKRON products in life support appliances and systems is subject to prior specification and written approval by SEMIKRON. We therefore strongly recommend prior consultation of our staff.
© by SEMIKRON Rev. 1.0 – 22.06.2015 7
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